JP2002310398A - Float valve - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a float valve which can discharge relatively large amount of fluid by opening a large valve hole without using any lever, and prevent the increase in size of the entire float valve. SOLUTION: A sub float 14 is disposed below a main float 12 at the position separate from a valve seat 8 in a vertically movable and turnable manner. When the main float 12 opens the valve, the buoyancy of the sub float 14 works as the rotation-supporting moment to support the main float 12 to open the valve.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a float valve for automatically opening and closing a valve hole on the outer surface of a float by utilizing a specific gravity difference between a gas and a liquid to automatically discharge one fluid from a gas-liquid mixing system. .

As a float valve, a steam trap for automatically discharging condensate generated in a steam piping system, an air trap for automatically discharging condensed water generated in a compressed air piping system, and a condensation trap generated in a gas piping system There are a gas trap for automatically discharging water, an oil trap for automatically discharging water mixed in an oil piping system, and an air vent for automatically discharging air mixed in a water piping system.

[0003]

2. Description of the Related Art A conventional float valve is disclosed, for example, in Japanese Patent Application Laid-Open No. 7-83393. What is shown here forms a valve chamber in a casing having an inlet and an outlet, provides a valve seat having a valve hole communicating the valve chamber and the outlet, and provides a portion in contact with the valve chamber side end of the valve hole. A main float formed in a spherical shape is rotatably arranged in a main float cage, a separate float is mounted on the main float cage, and a valve hole is directly opened / closed on a spherical outer surface of the main float. .

[0004]

In the above-mentioned conventional float valve, since a lever is used, a relatively large amount of condensate can be discharged by opening and closing a large-diameter valve hole. There was a problem that the shape of the entire valve was enlarged.

Accordingly, an object of the present invention is to discharge a relatively large amount of fluid without using a lever and to reduce the size of the float valve as a whole.

[0006]

Means for Solving the Problems According to the present invention, a valve chamber is formed in a casing having an inlet and an outlet, and a valve hole communicating the valve chamber and the outlet is provided. The main float, which has a valve seat and the part of the valve hole that is in contact with the end of the valve chamber on the side of the valve chamber, is arranged in a free state in the valve chamber, and the valve hole is opened and closed directly on the spherical outer surface of the main float. A secondary float that rises due to the liquid level in the valve chamber and contacts the outer surface of the primary float is disposed in the valve chamber, and at least a position where the primary float opens a valve hole and a position away from a valve seat. A sub-float guide portion for guiding the movement of the sub-float is provided in the valve chamber so that the sub-float and the main float come into contact with each other, and the buoyancy of the sub-float assists in opening the main float.

[0007]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention is directed to a slave float that guides the movement of a slave float so that the slave float contacts the master float at a position where the main float opens a valve hole and at a position away from a valve seat. By providing a float guide part in the valve chamber and assisting the opening of the main float by the buoyancy of the slave float,
A larger valve hole can be opened and closed as compared with the case where only the main float is used, and since the lever is not used, the overall shape of the float valve does not increase.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described with reference to FIG. This embodiment is applied to a free-float type steam trap, which is one of steam traps for automatically discharging condensate generated in a steam piping system, as a float valve.

The main body 1 and the lid member 2 form a valve casing. The interior of the valve casing is partitioned by a partition wall 3 into a valve chamber 5 communicating with the inlet 4 and an outlet passage 7 communicating with the outlet 6. The inlet 4 opens at the top of the valve chamber 5. A valve seat 8 provided with a valve hole 9 in the lower part of the valve chamber 5 is attached to the main body 1 and fixed with a holding plug 10.

A through hole 11 is provided in a side portion of the valve seat 8, and the through hole 11 and the valve hole 9 communicate the valve chamber 5 and the outlet passage 7. Although not shown, a gasket or the like for maintaining airtightness is attached to the valve seat 8, the holding plug 10, and the lid member 2.

A hollow spherical stainless steel main float 12 is placed in the valve chamber 5 in a free state. The main float 12 is
It floats up and down according to the liquid level of the condensed water stored in the valve chamber 5, and the outer surface thereof opens and closes the end of the valve hole 9 on the valve chamber 5 side. On the bottom wall of the main body 1, a float seat 13 for defining a lowering position of the main float 12 is formed.

The inlet 4 side of the float seat 13, that is, the valve seat 8
The spherical secondary float 14 is arranged at a position away from the lower side of the valve chamber 5 so as to be vertically movable and rotatable. The diameter of the secondary float 14 is smaller than the diameter of the primary float 12.

The slave float 14 is vertically movable and rotatable,
The main body 1 is moved up and down by the liquid level in the valve chamber 5.
Is provided with a rod-shaped slave float guide portion 15 in the valve chamber 5.
The sub float guide 15 is provided with a single rod-shaped guide 15 in front of the sub float 14 in the drawing and by providing a guide parallel to the back of the sub float 14 in the drawing.
The sub-float 14 floats up and down between the guide portions so as to be vertically movable. The guide part 15 allows the slave float 1
4 is prevented from floating above the valve chamber 5.

The operation of the free-float type steam trap is as follows. Steam and condensate flow from inlet 4 to valve room 5
When the condensate level in the valve chamber 5 rises, the sub float 14 rises, while the main float 12 maintains the valve closed state as shown in FIG. When the liquid level in the valve chamber 5 further rises, the secondary float 14 rises and comes into contact with the primary float 12, and both the primary float 12 and the secondary float 14 float,
The outer surface of the main float 12 opens the valve hole 9 and discharges the condensate in the valve chamber 5 from the outlet passage 7 to the outlet 6. Slave float 14
Is in contact with the guide portion 15 and is prevented from floating and further displacement.

When the main float 12 opens the valve hole 9, the upper float 17 is used as a rotation fulcrum at the upper end 17 of the valve seat 8.
2 rotates clockwise and rises due to its buoyancy. This movement is the same as a conventional free float valve.

In this embodiment, the slave float 14 is
Assists the opening of the main float 12. That is, main float 1
At the position where the valve 2 opens, the buoyancy of the slave float 14 is applied to the main float 12 as auxiliary buoyancy. This auxiliary buoyancy acts as a rotational moment from the rotation fulcrum 17 of the main float 12 to the contact point 18 of each of the master and slave floats 12 and 14 as the length of the arm.

By assisting the opening of the main float 12 by the sub-float 14 as described above, the valve opening force can be increased without using a lever, and the valve hole is larger than that of the conventional free float alone. Can be opened and closed.

When the liquid level in the valve chamber 5 drops due to the discharge of the condensate, the floats 12 and 14 of the master and the slave descend, and
The valve hole 9 is closed directly on the outer surface of the main float 12 to prevent steam from leaking to the outlet 6 side.

In the present embodiment, the slave float 14 is
Although an example in which only a single float is used has been described, a plurality of the floats may be arranged around the main float 12 and used.

[0020]

As described above, according to the present invention, a large amount of fluid is discharged by opening a large valve hole without using a lever by assisting the opening of the main float with the secondary float. In addition to this, it is possible to prevent the size of the entire float valve from increasing.

[Brief description of the drawings]

FIG. 1 is a sectional view of a free-float type steam trap showing an embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Main body 2 Lid member 4 Inlet 5 Valve room 6 Outlet 7 Outlet passage 8 Valve seat 9 Valve hole 12 Main float 14 Secondary float 15 Secondary float guide

Claims (1)

[Claims] A valve chamber is formed in a casing having an inlet and an outlet, a valve seat having a valve hole communicating the valve chamber and the outlet is provided, and a portion in contact with an end of the valve hole on the valve chamber side is formed in a spherical shape. When the formed main float is arranged in the valve chamber in a free state and the valve hole is directly opened / closed on the spherical outer surface of the main float, the liquid rises in the valve chamber and comes into contact with the outer surface of the main float. A sub-float which arranges a sub-float in a valve chamber and guides the movement of the sub-float such that the sub-float and the main float come into contact at least at a position where the main float opens the valve hole and at a position away from the valve seat. A float valve, wherein a guide portion is provided in a valve chamber, and the buoyancy of the slave float assists the opening of the main float.